Design of Photonic Bandgap Fibre with Novel Air-Hole Structure
LI Jing, ZHANG Wei-Gang, DU Jiang-Bing, WANG Zhi, LIU Yan-Ge, DONG Xiao-Yi
Key Laboratory of Opto-Electronic Information and Technology (Ministry of Education), and Institute of Modern Optics, Nankai University, Tianjin 300071
Design of Photonic Bandgap Fibre with Novel Air-Hole Structure
LI Jing, ZHANG Wei-Gang, DU Jiang-Bing, WANG Zhi, LIU Yan-Ge, DONG Xiao-Yi
Key Laboratory of Opto-Electronic Information and Technology (Ministry of Education), and Institute of Modern Optics, Nankai University, Tianjin 300071
摘要We introduce PBGFs with the cladding made of our newly designed quasi-hexagonal air holes and demonstrate how it actually operates. This cladding structure is introduced for the first time to the best of our knowledge, and is realized by making use of the hydrofluoric acid's corrosive properties. The fibre corrosion can be accurately controlled, thus opening us the gate for the design and fabrication of new PBGFs with more complex and more efficient cladding structures. Numerical results and actual simulations indicate that PBGFs built with this cladding structure have improved bandgap properties and guiding bands as wide as 500nm have been theoretically reached. Using the same method, we have also been able to design two other types of PBGFs with improved cladding structure.
Abstract:We introduce PBGFs with the cladding made of our newly designed quasi-hexagonal air holes and demonstrate how it actually operates. This cladding structure is introduced for the first time to the best of our knowledge, and is realized by making use of the hydrofluoric acid's corrosive properties. The fibre corrosion can be accurately controlled, thus opening us the gate for the design and fabrication of new PBGFs with more complex and more efficient cladding structures. Numerical results and actual simulations indicate that PBGFs built with this cladding structure have improved bandgap properties and guiding bands as wide as 500nm have been theoretically reached. Using the same method, we have also been able to design two other types of PBGFs with improved cladding structure.
[1] Cregan R F, Managan B J, Knight J C, Birks T A, Russell PS J, Roberts P J, and Allen D 1999 Science 285 1537 [2] Broeng J, Barkou S E, S$\phi$ndergaard T, and Bjarklev A2000 Opt. Lett. 25 96 [3] Knight J C, Broeng J, Birks T A, and Russell P S J 1998 Science 282 1476 Broeng J, Barkou S E, Bjarklev A, Knight J C, Birks T A andRussell P S J 1998 Opt. Commun. 156 240 [4] Couny F, Benabid F and Light P S 2006 Opt. Lett. 31 3574 [5] Wang J Y, Jiang C, Hu W S and Gao M Y 2006 Opt.Fiber Technol. 12 265 [6] Murao T, Saitoh K and Florous N J 2007 Opt.Express 15 4268 [7] Yan M and Shum P 2005 Opt. Lett. 30 1920 [8] Li Z Y and Lin L L 2003 Phys. Rev. E 67 1 [9] Saitoh K and Koshiba M 2002 IEEE J. QuantumElectron 38 927 Saitoh K and Koshiba M 2003 Opt. Express 113100
2008, Vol. 25 
